RU2148130C1 - Method for erection of stratified monolithic wall and hollow ceramic stone used in it - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: method relates to production of stratified monolithic wall of shuttering type of enhanced performance characteristics with use of ceramic stones of single type-size. Method implies creation of internal surface and external surface from shuttering members and filling space with concrete mix. Used in function of shuttering members are hollow ceramic stones having slots in their side faces. Slots in one side face are made in the form of dovetail along stone. In parallel side face slots are made to depth equal to 1/20-1/30 of thickness of ceramic stone and they imitate brickwork. Used in function of concrete mix is mix containing following components, mas.%: ash produced by burning of industrial and domestic effluent of municipal activities, 25-40; portland cement, 40-25; aluminium powder, 0.1-0.15; water, the balance. Prier to filling space with concrete mix, internal surface and external surface of wall are additionally connected by members with ends made in the form of dovetail. They interact with slots in ceramic stones. Concrete mix is poured into space in multiple equal portions. Amount of each portion is determined according to formula: V/F, where V - amount of concrete mix, cu.m; F - area of space to be filled with concrete mix, sq.m. Used according to aforesaid method is hollow ceramic stone with slot-like through-hollows which are parallel to one of stone faces. Also provided are partitions between them and slots located in two parallel faces along stone. Slots in one face of stone are made in the form of dovetail. Slots in opposite face are made in the form of rectangle with depth equal to 1/20-1/30 of ceramic stone thickness, and they imitate brickwork. Application of aforesaid invention allows for improving thermal insulation of wall. EFFECT: higher efficiency. 2 cl, 2 dwg

Description

 The invention relates to the construction, namely to the walls of the formwork type, and can improve the performance of the erected walls, as well as the manufacturability of their construction using ceramic stones of the same size.

 A known method of building a wall, including formwork blocks for pouring a binder - the main with closed cavities in the form of a rectangular parallelepiped and open at the end of the U-shaped cavities, and additional - U-shaped section with open cavities (SU, 965366, E 04 B 2/06 , 1982).

 The thickness of the wings of the U-shaped cavities increases from the ends to the transverse walls.

 The known method of wall construction provides a simplification of the technology of construction of a prefabricated monolithic wall, and also improves the quality of concrete filling.

 However, when erecting a known wall, formwork blocks of different sizes are used.

 A known method of erecting a wall, including blocks laid flat and connected by a layer of concrete (WO, 90/10128, E 04 C 2/26, 1990).

 At the same time, longitudinal grooves of a trapezoidal cross section are made on one or both sides of the blocks, broadening inside the block (dovetail type). A carrier beam is inserted into each such groove, which can be molded inside the groove. The supporting beam can be made of aluminum, steel, wood, etc.

 When erecting a known wall, the blocks are laid flat, connected and reinforced.

 A known method of erecting a laminated monolithic wall of hollow ceramic stone having grooves on the side faces parallel to the internal voids, and pouring concrete mixture (EP 378217, E 04 C 1/40, 1990).

 At the same time, the hollow ceramic stone is made so that at least four rows of vertical channels are located along the stone, and the end surfaces are serrated, and when pouring the concrete mixture, vertical channels are filled.

 The known method allows to obtain a soundproofing laminated monolithic wall of a non-formwork type and such a wall must be faced from the outside.

 The closest analogue of the present invention is a method of erecting a laminated monolithic wall, including the creation of internal and external surfaces from formwork elements and pouring concrete mixture (RU, 2052038, E 04 B 2/28, 1996).

 In the known method, blocks of the left formwork are used as formwork elements, and concrete pouring is carried out after finishing the front surface of the wall, which is carried out by fastening the tiles dry with pins to the blocks for subsequent anchoring when filling the blocks with concrete mixture.

 Moreover, in the known method, you can use low-grade concrete for concreting.

 However, the need to finish the external surface of the wall structure, as well as the use of building elements of different sizes increase the complexity of the method.

 In addition, the wall structure obtained by the known method must be plastered from the inside.

 A new technical result from the use of the present invention is the creation of a wall that does not require additional cladding on the outside and plaster on the inside.

 In addition, the use of concrete mix based on ash from the burning of industrial and domestic wastewater from municipal utilities, prepared at the construction site without autoclave heat treatment, reduces the cost of the wall and allows the disposal of municipal wastes.

This result is achieved by the fact that in the method of erecting a layered monolithic wall, including creating the inner and outer surfaces of the wall from formwork elements and pouring concrete mixture, hollow ceramic stones having grooves on the side faces parallel to the internal voids are used as formwork elements, while the grooves on one side face along the stone are made in the form of a dovetail, and on the parallel face grooves are made with a depth of 1 / 20-1 / 30 of the thickness of the ceramic stone and imitate brickwork, and in quality stve concrete mixture is a mixture containing, wt.%:
Ash from the burning of industrial and domestic wastewater of municipal utilities - 25 - 40
Portland cement - 40 - 25
Aluminum powder - 0.1 - 0.15
Water - Else
in this case, before pouring, the external and internal surfaces of the wall are additionally connected by connecting elements with ends made in the form of a dovetail and interacting with grooves of ceramic stones, and pouring is carried out repeatedly in equal doses, and the dose of each pouring is determined by the formula (U / F ≤ 0.2 - 0.4, where U is the volume of the pouring mixture, m ³ ; F is the area of the pouring space, m ³ .

At the same time, ash from the burning of industrial and domestic wastewater from municipal utilities is produced with the following characteristics:
Specific surface, m ² / kg - 100 - 600
Bulk density, kg / m ³ - 75 - 800
The content of free sulfur in terms of SO ₃ ,% - 1.5 - 2.0%
The proposed method uses a new type of ceramic stones with a size of 120 x 250 x 225, on the front surface of which there are grooves with a width of 10 mm and a depth of 5 mm, imitating a pattern of traditional brickwork of single brick, and the voids of the stone - horizontally located holes.

 Thus, the outer side of the wall does not require cladding, and the horizontal position of the voids in the stone completely eliminates the use of masonry cement-sand mortar and masonry on cement-adhesive mortar of minimum thickness, which significantly increases the heat-insulating properties of the masonry.

 The presence on the inner side of the grooves in the form of a dovetail provides a reliable connection between fixed formwork made of ceramic stones and monolithic porous concrete without traditional steel ties that reduce the heat-shielding properties of the wall. And finally, the smooth inner surface of the wall made of ceramic stones allows you to abandon the laborious plastering work when decorating the premises.

 The above positive effect was achieved due to the use of the proposed design in the production of wall formwork type ceramic stone.

The proposed method of erecting a laminated monolithic wall is as follows: two rows of ceramic stones are exposed from the outer and inner sides of the wall to a gripping length equal, for example, to the distance between transverse reinforced concrete walls and their design position is fixed. The fixing process is as follows. Inventory connecting element, which is a reinforcing bar with a diameter of 5 mm with reinforced shorts welded at the ends, is inserted into longitudinal grooves ("dovetail") of opposing ceramic stones and rotated by 90 ^o .

As a result of the interaction of vertically located shorties with a cavity in the form of a dovetail of ceramic stones, they are fixed. Then the cavity is filled with monolithic porous concrete to the level of inventory ties, which are then removed and rearranged to a new “grab”, while pouring is carried out with a dose determined by the formula (U / F ≤ 0.2 - 0.4, where U is the volume of the pouring mixture, m ³ ; F is the area of the filling space, m ³ .

 Pouring is carried out with non-autoclave concrete curing of the claimed composition based on ash from the burning of industrial and domestic wastewater of municipal utilities, which allows, on the one hand, to obtain a good technical and economic effect in the construction of walls, and on the other hand, to utilize municipal wastes.

 The solution of the wall fencing carried out by the proposed method is presented in Fig. 1.

 Another object of the present invention is a hollow ceramic stone for the construction of a monolithic laminated wall.

 Famous hollow ceramic stone for the construction of a monolithic laminated wall, including slit-like through voids parallel to one of the faces of the stone, partitions between them and rectangular grooves located on two parallel side faces along the stone (RU 2020214, E 04 B 2/14, 1994).

 When using a well-known stone during the construction of a wall, it is necessary to clad its outer side and plaster the inner side.

 Famous hollow ceramic stone for the construction of a monolithic laminated wall, including slit-like through voids, parallel to one of the faces of the stone, partitions between them and serrated grooves located on the end surfaces of the stone (EP 0378217, E 04 C 1/40, 1990).

 When using such a stone, wall cladding on both sides (external and internal) is also necessary. In addition, the vertical arrangement of voids in the stone causes the use of masonry cement-sand mortar during masonry, which reduces the heat-shielding properties of the masonry.

 In the proposed method, a new type of ceramic stones with a size of 120 x 250 x 225 is used, including slit-like through voids parallel to one of the faces of the stone, partitions between them and grooves located on two parallel side faces along the stone, while the grooves on one face of the stone are made in the form of a dovetail, and on the opposite side, the grooves are made in the form of a rectangle with a depth of 1/20 - 1/30 of the thickness of the ceramic stone and imitate brickwork (Fig. 2).

The proposed design of the stone when it is used in the method of production of the wall of the formwork type provides the following positive effect:
1) increases the heat-insulating properties of the wall due to masonry on a cement-adhesive mortar of minimum thickness;
2) provides cladding of the external wall, imitating the pattern of traditional brickwork from a single brick;
3) provides a reliable connection between fixed formwork of ceramic stones and monolithic porous concrete due to grooves in the form of a dovetail;
4) creates the inner surface of the wall, which does not require laborious plastering operations.

Claims (2)

1. The method of erection of a laminated monolithic wall, including the creation of internal and external surfaces from formwork elements and pouring concrete mixture, characterized in that as the formwork elements use hollow ceramic stones having grooves on the side faces, with grooves on one side face along the stone made in the form of a dovetail, and on the parallel face, the grooves are made in depths of 1/20 - 1/30 of the thickness of the ceramic stone, and imitate masonry, and as a concrete mixture using a mixture containing wt.% :
Ash from the burning of industrial and domestic wastewater of municipal utilities - 25 - 40
Portland cement - 40 - 25
Aluminum powder - 0.1 - 0.15
Water - Else
in this case, before pouring, the inner and outer surfaces of the wall are additionally connected by elements with ends made in the form of a dovetail and interacting with the grooves of ceramic stones, and pouring is carried out repeatedly in equal doses and the dose of each pouring is determined by the formula (V / F) ≤ 0.2 - 0.4, where V is the volume of the casting mixture, m ³ ; F is the area of the filling space, m ² .  2. Hollow ceramic stone for the construction of a monolithic laminated wall, including slit-like through voids parallel to one of the faces of the stone, partitions between them and grooves located on two parallel side faces along the stone, characterized in that the grooves on one face of the stone are made in the form of dovetin the tail, and on the other, opposite face, the grooves are made in the form of a rectangle with a depth of 1/20 - 1/30 of the thickness of the ceramic stone, and imitate brickwork.

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